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energy costs

Cable carriers, sometimes referred to as cat tracks, drag chains or energy chains, can be manufactured in many ways. They can be made with different materials, such as steel or plastic, and they can have simple lightweight designs or complex multi-axis configurations. But how do you know which carrier is best for your application?
Choosing the right energy chain is crucial because it offers the following benefits:
Longer service life for cables and hoses
Improved machine safety
Reduced operating costs
Read this basics guide to discover a range of cable carrier design and material options, as well as tips for selecting the ideal energy chain. You can also review installation guidelines for maximizing the service life of your cable carrier and the energy supply system it protects.

The way we produce and consume energy globally is changing. Over the next decade, the energy mix will undergo a significant shift at both a supranational and domestic level as we work towards a cleaner future.
By 2030, the offshore wind power market is expected to be worth £30 billion per year. Fast forward to 2050 and the industry is projected to contribute to at least a third of the total global electricity supply.
While this is great news for power generation companies, recent research has showed that the costs associated with maintaining wind farms will double between 2015 and 2020.
To secure its place in the future energy mix, protecting a wind turbines value and output through effective maintenance will prove critical to achieving a competitive edge.
There are steps that can be taken now, to reduce maintenance costs today and keep them lower in the future.
Shell Omala S5 Wind 320 – advanced synthetic wind turbine gear oil that can help to ensure your wind turbines work harde

Today's energy, environment, and utility companies face an unfamiliar landscape in which they must integrate alternative energies, expand situational awareness across the system, and deepen their relationships with customers-all while continuing to deliver reliable, safe, and affordable electricity, gas and water to everyone.By combining predictive analytics with IoT, cloud and mobile technologies, utilities companies can Lower costs, improve operational efficiency and increase equipment reliability.

By simplifying the ability of companies to securely extract, orchestrate and act on data from when it is generated by energy assets to when it is transmitted to the cloud, Octave simplifies the development and commercialization of Energy IoT applications. With Octave, energy companies are empowered to realize the Energy IoT’s tremendous potential, with new demand response, energy efficiency optimization, predictive maintenance and other applications that maximize the value created by energy assets and minimize their environmental impact. In doing so, these Energy IoT applications can reduce energy costs, improve customer engagement, lower greenhouse gas emissions and increase energy reliability.
Start with Sierra to learn more about how our Octave D2C data orchestration solution can help you bring to market Energy IoT applications that reimagine the future of energy.

Data continues to grow at an astounding pace? As a result, data center space is becoming more scarce, as more arrays are acquired to store all of this data. Along with this data taking up space, it is also utilizing a great deal of power and cooling. In fact, the average data center in the U.S. uses approximately 34,000 kW of electricity each year, costing $180,000 in annual energy costs. As Infinidat set out to revolutionize the storage industry, one of our goals was to help consumers of storage build a more sustainable infrastructure that would be not only better for the environment, but also help them to save money as well. All of our patents come together to form InfiniBox, a storage solution that does just this.

Energy costs have become an increasing contributor to pumping systems Total Cost of Ownership (TCO). In fact, energy cost represents 40% of the TCO of a typical pump. It is possible to reduce the electrical consumption by at least 30% utilizing Variable Speed Drives while decreasing maintenance costs associated with the mechanical driven system.
This paper explains how to reduce TCO with a limited investment focused on three key areas: energy efficiency management, asset management, and energy cost management.

Today's energy, environment, and utility companies face an unfamiliar landscape in which they must integrate alternative energies, expand situational awareness across the system, and deepen their relationships with customers-all while continuing to deliver reliable, safe, and affordable electricity, gas and water to everyone.By combining predictive analytics with IoT, cloud and mobile technologies, utilities companies can Lower costs, improve operational efficiency and increase equipment reliability.

Today's energy, environment, and utility companies face an unfamiliar landscape in which they must integrate alternative energies, expand situational awareness across the system, and deepen their relationships with customers-all while continuing to deliver reliable, safe, and affordable electricity, gas and water to everyone.By combining predictive analytics with IoT, cloud and mobile technologies, utilities companies can Lower costs, improve operational efficiency and increase equipment reliability.

Today's energy, environment, and utility companies face an unfamiliar landscape in which they must integrate alternative energies, expand situational awareness across the system, and deepen their relationships with customers-all while continuing to deliver reliable, safe, and affordable electricity, gas and water to everyone.By combining predictive analytics with IoT, cloud and mobile technologies, utilities companies can Lower costs, improve operational efficiency and increase equipment reliability.

As flash storage has permeated mainstream computing, enterprises are coming to better understand
not only its performance benefits but also the secondary economic benefits of flash deployment at
scale. This combination of benefits — lower latencies, higher throughput and bandwidth, higher
storage densities, much lower energy and floor space consumption, higher CPU utilization, the need
for fewer servers and their associated lower software licensing costs, lower administration costs, and
higher device-level reliability — has made the use of AFAs an economically compelling choice
relative to legacy storage architectures initially developed for use with hard disk drives (HDDs). As
growth rates for hybrid flash arrays (HFAs) and HDD-only arrays fall off precipitously, AFAs are
experiencing one of the highest growth rates in external storage today — a compound annual growth
rate (CAGR) of 26.2% through 2020.

While simple fixes may cost a few thousand dollars, lost revenue from equipment failures can run into the millions of dollars in lost productivity and replacement costs. There can be longer-term impacts, too, if the downtime inhibits a manufacturer’s ability to meet customer needs.
That’s why it is important for companies to think about lubrication and equipment maintenance holistically, recognizing that short term cost savings may be leading to bigger, preventable expenses over the long term.
By adopting a total cost of ownership (TCO) program, companies can find efficiencies they didn’t even know existed and reap benefits they didn’t realize were possible. Download our white paper, “The Cost Reduction Game,” to learn more about how a TCO program can help increase equipment reliability, extend equipment life, and lower energy costs.

Large industrial facilities such as warehouses and manufacturing plants present a huge operational challenge because of their size. With extremely tall ceilings and a lot of square footage to cool or heat, keeping occupants comfortable is difficult. The solution: MacroAir big industrial ceiling fans. MacroAir large industrial fans create a more comfortable climate and reduce energy costs for large industrial facilities.
MacroAir invented the large industrial ceiling fan in 1998 to deliver a cost-effective climate control solution by generating large amounts of airflow. MacroAir’s big industrial fans produce a cooling effect, help control the effects of humidity, and can also help conserve heat in colder months by pushing warm air that is trapped at the ceiling toward the walls and down to the floor at occupant level.
MacroAir big industrial ceiling fans create an environment where employee’s feel comfortable, which results in increased productivity and improved industrial operations.

Many energy and natural resource (ENR) companies still rely on static, error prone data sources. Using static data in assumptions that are made on actual production costs, operating capacity, and yields is no longer sufficient to compete successfully in today’s market, a situation made more problematic given that the ENR industry faces reduced market prices for products, increased costs for operations and an onslaught of new competitors.

Energy costs have become an increasing contributor to pumping systems Total Cost of Ownership (TCO). In fact, energy cost represents 40% of the TCO of a typical pump. It is possible to reduce the electrical consumption by at least 30% utilizing Variable Speed Drives while decreasing maintenance costs associated with the mechanical driven system.
In this complimentary white paper, learn how to reduce the TCO of your pumping system with a limited investment in three key areas: energy efficiency management, asset management, and energy cost management.

Energy companies are being challenged on multiple fronts. Core expectations require the delivery of safe, reliable, affordable and sustainable energy. Business models are being challenged by alternatives such as renewables and consumers demanding more sophisticated interactions through social and mobile.
Energy companies need to:
Disruptively innovate business processes through analytics driven operational excellence to increase agility and responsiveness, reduce operational costs and improve asset reliability
Assume the role of energy integrator to optimally balance supply and demand points
Deliver a 360-degree customer-of-one experience to increase customer satisfaction and loyalty, reduce costs, and improve management of energy demand

Power distribution is facilitated through different pieces of equipment that take the power conditioned by your uninterruptible power supply (UPS) and send it to your IT equipment . Power distribution solutions can manage and even control energy consumption in smaller environments as well as large data center applications . Distributing power efficiently results in reduced operating costs and increased reliability.

Hospitals and health systems around the globe are looking at everything from tighter supply controls to energy efficiency initiatives as ways to cut costs and save money. Another avenue being evaluated more closely is communications.

This white paper presents and compares the effectiveness of two types of airflow containment systems (legacy and modular), the resultant impact on IT temperatures, the energy consumption and associated operational costs for the data center, and the projected return on investment (ROI) for implementing the containment systems.

Cisco Catalyst 2960-X and -XR Series Switches earned the Miercom Certified Green Award for saving over 50% in annual energy operating costs compared to the industry average. The switches were evaluated in accordance with the Miercom Certified Green Testing Methodology. Test results show the benefits of Cisco Catalyst 2960-X and -XR Series Switches.

University of East Anglia wished to create a “green” HPC resource, increase compute power and support research across multiple operating systems. Platform HPC increased compute power from 9 to 21.5 teraflops, cut power consumption rates and costs and provided flexible, responsive support.

WebEx elected to pursue a course of investigation and analysis that required a granular picture of its application-centric hardware implementations and corresponding power usage profiles. To accomplish this, WebEx decided to retool their datacenters with intelligent power strips having the ability to remotely report power consumption.